◆Good surface flatness

◆Large thermal transfer area

◆Flexible flow channel design

◆Thin thickness to save space

◆Perfect thermal dissipation effect

◆Low leakage risk and high reliability

◆Stable and high production efficiency

◆Good pressure resistance and strength

◆Flexible flow channel design

◆Thin thickness to save space

◆Easy processing and shaping

◆Large thermal dissipation area

◆High heat dissipation efficiency

◆Low leakage risk and highsafety

◆Good pressure resist and strength

◆High production efficiency and yield

◆Rapid thermal cooling speed

◆Thin thickness to save space

◆Easy processing and shaping

◆Large thermal dissipation area

◆High thermal dissipation effect

◆Flexible runner channel design

◆Excellent welding performance

◆Low leak risk and high security

◆Excellent surface flatness

◆Large thermal transfer area

◆Flexible flow channel design

◆Easy processing and shaping

◆Good thermal dissipation effect

◆Low leakage risk and high safety

◆Good pressure resist and strength

◆High production efficiency and yield

◆High processing efficiency

◆Lower energy consumption

◆Large thermal transfer area

◆Rapid thermal cooling speed

◆Thin thickness to save space

◆Excellent thermal performance

◆Low leak risk and high reliability

◆Good tightness and high strength

◆High production efficiency

◆Large thermal transfer area

◆High performance cost ratio

◆Rapid thermal cooling speed

◆Thin thickness to save space

◆Easy processing and shaping

◆Good thermal exchange effect

◆Low leak risk and high reliability